Background

Childhood cancer is relatively uncommon and the European age-standardized rate was 164 new case per million per year among children 0 to 14 years of age (95 % CI 158-170). Aims of our study are to evaluate the cases of these malignant diseases observed between 0 and 15 years of age in the Campania region between 1990 and 2014, the ration between observed and expected cases by disease and province of residence. Also we studied the percentage of extra-regional migration over the time by disease and province of residence.

Methods

In this study we reported the patients with malignant disease observed in 25 years (1990–2014) based on the specialized registry, the Mod. 1.01 of the AIEOP (Association Italian Pediatric Hematology-Oncology). The size of the monitored population also allowed us to systematically examine five time trends: 1990–94: 1995–99; 2000–04; 2005–09; and 2010–14.

Results

Between 1990 and 2014 a total of 3655 malignant neoplasms were reported: Napoli province (2059 cases), Salerno province (625), Caserta province (589), Avellino province (229), and Benevento province (153). Epidemiological data suggested that about 4100 cases could be expected in Campania region during the same period. The overall ratio between observed (O) and expected (E) numbers of cases in the five periods considered rose gradually from 0.69 in the first period to 0.76, then 0.82, 0.91, and 0.94, in the other periods considered. The extra-regional migration involved 1029 cases (28.1 %), showing a reduction from 33.7 % of the first period to 20.3 % of the last period considered. Considering single province of residence we observed the lowest rate of migration in Napoli and Caserta province, whereas higher levels were observed in the other provinces. For all provinces, except Salerno, the extra-regional migration declined significantly over time.

Conclusions

The present findings showed an increase over time of O/E ratio, probably due to improvement in the organization of centers and greater trust of families in local centers. It is possible to further improve the efficiency of healthcare system of Campania region and migration can be reduced with a more rational use of hospitals throughout region.

Childhood cancer is relatively uncommon and actually the European age-standardized rate was about 164 new case per million per year among children 0 to 14 years of age (95 % CI 158-170) [1, 2]. Between 1988 and 2008 a total of 5,709 malignant neoplasms were reported in children aged 0–14 years. Incidence rates in children for all malignant cancer peaked in 1997 (211 cases/million boys and 175 cases/million girls per year), followed by a decline, non statistically significant [1, 2]. Instead, the annual incidence rate in adolescents (15–19 years) was 269 per million (95 % CI 256-283) [3, 4]. The ranking of cancer types as defined by the ICCC-3 (International Classification for Childhood Cancer) classification shows that leukemias are the most frequent neoplasms (33 % of all malignant cancers), followed by lymphomas (16 %), malignant tumours of Central Nervous System (CNS) (13 %), which increase to 18 % when including non-malignant tumours), followed by neoplasms of the peripheral nervous system (8 %), and the soft tissue cancers (7 %). The remaining neoplasms, more rare, account for no more than 5 % each and 23 % altogether [5, 6]. Aims of our study are to evaluate the incidence of these malignant diseases observed between 0 and 15 years of age in the Campania region, the ration between observed and expected cases by disease and province of residence. Also we studied the percentage of extra-regional migration over the time by disease and province of residence. A minor objective was to evaluate an eventually increase of incidence of cancer in Napoli and Caserta provinces, called “Ground of fires”, from involuntuary exposure to environmental pollutants. However, it is worth remembering that a correlation between pollution and cancer requires several types of evidence and a systematic approach following well-defined criteria and methods that make it a specialized activity.

For this report we selected all cancer cases diagnosed in the 0–15 years age group. The age specific rates were computed dividing the number of newly diagnosed cases in a period in this group of age of population by the corresponding population in the same period. The rates defines the mean number of diagnoses in one year and is referred to 1,000,000 subjects of the specific age group. The European age-standardized rate was 164 new cases per million children per year (95 % CI 158-170) [5] In this study we reported the number of patients with malignant disease diagnosed before their 15th birthday and observed in 25 years (1990–2014), based on the specialized registry, the Mod. 1.01 of the AIEOP (Association Italian Pediatric Hematology-Oncology). This centralized archive, called Model (Mod.) 1.01, has been in use since 01.01.1989 and records essential standardized information on all cases of childhood cancer for ages 0–19 years, diagnosed and/or treated in the AIEOP centers. For this reason we started our analysis since 1990. We recognize the limits of the Mod. 1.01 as a potential cancer registry. An study was estimated for the period 1989–1998, as a total and by tumour type, comparing the recruitment vs the expected numbers based on the incidence rates measured by the Childhood Cancer Registry of Piedmont. Results showed good correspondence [7]. Actually the AIEOP database to include in Italy about the 90 % of children aged 0–15 years affected by cancer. The size of the monitored population also allowed us to systematically examine five time trends: 1990–94; 1995–99; 2000–04; 2005–09; and 2010–14. The evaluation of expected cases is considered related to the population in a province and the number of children residents in the same province. In detail, the global number of people in Campania region is of 5,790,929 and of 1,014,796 between 0–15 years old. Corresponding global population and 0–15 years people, were respectively for Napoli 3,086,622 and 572,335; Salerno 1,090,934 and 173,335; Caserta 886,758 and 160,277; Avellino 437,414 and 65,566; and Benevento 289,201 and 43,355 residents. (Specialized Registry for childhood Campania Region). Based on these numbers of children the expected cases of malignant neoplasm per year were for province of Napoli (93 cases); Salerno (28 cases); Caserta (26 cases); Avellino (10 cases); and Benevento (7 cases). The ranking of cancer types as defined by ICCC-3 show per year solid cancer non CNS as the most frequent neoplasms (61 cases), followed by leukemias (52 cases), CNS tumours (41 cases), and Hodgkin/non Hodgkin lymphomas (23 cases) [5]. We have calculated the number of observed cases (O) in the long time in Campania region and then we have analyzed the ratio between observed and expected (E) numbers of cases. The Breslow-ay test was used to assess O/E trends by diagnostic period. The aim was to check an eventually better O/E ratio over time to demonstrate that more cases have been treated at local centers. A secondary aim was to verify an eventually surplus of malignant cancer cases observed in the specific 5-year time and/or in the several provinces of Campania region. Finally, we have evaluated the extra-region migration as the number of the children affected by malignant neoplasm diagnosed and/or treated in other regions (or Countries) from where they live.

Global analysis

During the study period 3655 cancer patients aged 0–15 years old were registered in the AIEOP database, 2036 males (55.7 %) and 1619 females (44.2 %). Epidemiological data suggest that about 4.100 cases in Campania Region and 37,000 cases in Italy could be expected during the same period. Table 1 shows all cases registered by diagnosis and province of residence in the five diagnostic period considered. Table 2 shows in detail all cases observed by type of disease in the five diagnostic period considered.

Table 1

Characteristics and numbers of children (0–15 years old) diagnosed with cancer in Campania Region between 1990 and 2014, registered in the AIEOP Mod. 1.01

Diagnostic period

No (%) of patients

1990–1994

611 (16.7)

1995–1999

673 (18.4)

2000–2004

726 (19.8)

2005–2009

806 (22.0)

2010–2014

839 (22.9)

Sex

Male

2036 (55.7)

Female

1619 (44.2)

Type of Disease

Acute lymphoblastic/hybrid Leukemia

1036 (28.3)

Acute non lymphoblastic Leukemia

220 (6.0)

Chronic Myeloid Leukemia

24 (0.6)

Non Hodgkin Lymphoma

281 (7.6)

Hodgkin Lymphoma

189 (5.1)

CNS Tumours

500 (13.6)

No CNS Tumours

1405 (38.4)

Province of residence

Napoli

2059 (56.3)

Salerno

625 (17.0)

Caserta

589 (16.1)

Avellino

229 (6.2)

Benevento

153 (4.1)

Table 2

Observed malignant cancer cases by disease and period of observation (%)

O/E ratio cases by type of cancer and period of observation

Related to the European age-standardized rate of about 164 new case per million per year among children 0–15 years and the ranking of cancer type as defined by the ICCC-3 we expected in Campania Region every five years time period about 260 cases of Leukemias; 115 cases of Lymphomas; 305 cases of Solid tumours (No CNS); and 205 cases of CNS tumours. Table 3 shows all cases observed and the O/E ratios in the five diagnostic period considered. The O/E ratio rose gradually from the first 5-year time to the last period for Lymphomas, CNS tumours, and Solid tumours (No CNS); the improvement was statistically significant for CNS tumours. The O/E ratio was particularly high for Leukemias.

Table 3

Ratio between observed and expected cases by type of cancer and period of observation (%)

O/E ratio cases by province of residence at diagnosis and period of observation

Based on the number of children living in Campania region the expected cases of malignant neoplasm every five years of observation were 465 for province of Napoli, 140 for Salerno, 130 for Caserta, 50 for Avellino, and 35 for Benevento. Table 4 shows the O/E ratios in the five diagnostic periods considered. The overall O/E ratio rose gradually from the first period to the last period considered, with the exception of Benevento province. This improvement was statistically significant for Napoli and Caserta provinces, as trend across diagnostic periods. In the Caserta and Salerno provinces the O/E ratio was particularly high (>1) in the last 5-year time.

Table 4

Ration between observed and expected cases by province of residence at diagnosis and period of observation (%)

Province of residence

1990–1994

1995–1999

2000–2004

2005–2009

2010–2014

E/5 years

O

O/E

O/E

O/E

O/E

O/E

Napoli

465

344

0.73

0.82

0.90

0.98

0.96*

Caserta

130

101

0.77

0.71

0.83

0.99

1.2*

Salerno

140

97

0.69

0.84

0.85

0.94

1.1

Avellino

50

40

0.80

1.0

0.80

1.0

0.90

Benevento

35

29

0.82

0.74

1.0

0.94

0.77

E expected cases/five years, O observed cases/five years

*p < 0.05 for trend across diagnostic periods

Extra-regional migration by period of observation and type of disease

Analyzing the 3655 cases who were diagnosed in the period 1990–2014, extra-regional migration involved 1029 (28.1 %) cases. Table 5 shows the global extra-regional migration for all cases, by disease. Table 6 shows in detail the variation in the five diagnostic periods considered of all malignat neoplasms observed. The analysis over time proves a progressive improvement for more frequent pediatric neoplasms. In detail, we observed for acute/hybrid lymphoblastic leukemias a progressive reduction of extra-regional migration from 18.5 % of the first period examined to 10.1 % of the last 5-year time (2010–2014), as for acute non lymphoblastic leukemia from 38.4 % to 12.2 %, Also, we observed a very good reduction of migration over time for lymphomas, neuroblastoma and kidney cancer, with a reduction from 36.5 %, 42.6 %, and 31.8 % for a first 5-year time to 17.7 %, 12.8 %, and 13.3 %, respectively. A minor improvement over time was registered for a soft tissue sarcomas with a percentage of reduction from 38.7 % to 22.2 % of the 2010–2014 period. Actually, non-satisfactory results were related to CNS tumors and Ewing/PNET sarcomas with a percentage reduction from 80.6 % and 64.2 % to 35 % and 54.8 %, respectively. Different is the problem related to the retinoblastoma, probably due to the more specific diagnostic and therapeutic approach. In fact, we observed a progressive extra-regional migration over time from a 12.5 % of the period 1990–1994 to 100 % of the 2010–2014 (Table 6).

Table 5

Extra-regional migration of the 3655 patients studied by disease and province of residence

Disease

No patients/total (%)

Acute lymphoblastic/hybrid Leukemia

143/1036 (13.8)

Acute non lymphoblastic Leukemia

37/220 (16.8)

Chronic Myeloid Leukemia

3/24 (12.5)

Non Hodgkin Lymphoma

73/281 (25.9)

Hodgkin Lymphoma

47/189 (24.8)

Neuroblastoma

93/342 (28.9)

CNS Tumours

251/500 (50.2)

Kidney Tumours

44/202 (21.7)

Soft Tissue Sarcoma

70/212 (33.0)

Histiocytosis

40/168 (23.8)

Germinal Cell Tumours

24/107 (22.4)

S. Ewing/PNET

57/109 (52.2)

Retinoblastoma

50/77 (64.9)

Bone Tumours

42/63 (66.6)

Liver Tumours

22/45 (48.8)

Other Tumours

27/60 (45.0)

Total

1029/3655 (28.1)

Province of residence

Napoli

392/2059 (19.0)

Salerno

266/625 (42.5)

Caserta

175/589 (29.7)

Avellino

104/229 (45.4)

Benevento

68/153 (44.4)

CNS central nervous system, PNET peripheral neuroectodermal tumor

Table 6

Extra-regional migration by period of observation and type of disease (%)

Extra-regional migration by province of residence

Table 5 shows the extra-regional migration of the patients by province of residence. In Table 7 was evident the reduction of migration over time in the five provinces of Campania region even if with different results. Better results were registered for Napoli and Caserta whereas in the last 5-year time considered in the other three provinces more cases opted for the diagnosis and/or treatment in centers of a different region: Salerno (36.7 %); Avellino (26.6 %), and Benevento (25.9 %).

Table 7

Extra-regional migration by province of residence at diagnosis and period of observation of the 1029 patients examined (%)

The present findings update descriptive cancer epidemiology in children (0–15 years) in Campania in the period 1990–2014 (25 years of observation) based on data provided by specialized clinical Mod.1.01 from AIEOP centers. The cases of cancer expected in Campania in this period, calculated using the last AIRTUM’s site-specific incidence rates by age group (0–15 years), were about 4,100 cases (11.5 %), of which 29.7 % were leukemias, 14.5 % were lymphomas, 20.4 % were CNS tumours, and 35.4 % were solid neoplasms non CNS. These percentages bring about a number of expected cases per year of 51 cases of leukemia, 25 cases of lymphoma, 35 cases of CNS tumours, and 61 cases of solid cancer non CNS. The present study shows that O/E ratio for leukemias and solid neoplasms non CNS was high since 1990 to demonstrate the efficacy of AIEOP organization and Mod. 1.01 for these diseases. Instead, the improvement of observation for lymphomas was more gradual over time and a increase of O/E ratio was observed from 0.59 in the period 1990–1994 to the most cases have recently been treated at local centers AIEOP. Recently, better O/E ratio was evident for CNS tumours with a two thirds cured in local centers, respect to the 0.15–0.38 O/E ratio observed in the 1990–2000 period. These results probably are due to substantial improvements in non-invasive diagnostic techniques but also to better collaboration between pediatric and neuro-surgery oncologists. These data were calculated using the Italian Network of Cancer Registries (AIRTUM) that includes 32 general cancer registries and five specialized which two dedicated to childhood (0–14 years), including about 4,000,000 of children. According to the province of residence in Campania in our study the overall O/E ratio rose gradually from the first time to last 5-year time and in 2010–2014 this ratio was particularly high (>1) for cancer observed in province of Caserta and Salerno. Conversely, the lowest O/E ratios were seen in province of Benevento. The analysis of extra-regional migration shows a progressive improvement of reduction over time, particularly for emo-lymphoproliferative diseases, neuroblastoma, and kidney cancer (under 20 % in the last period). Actually, there is still a relevant elective migration (more of 30 %) for CNS tumours, Ewing/PNET sarcomas, liver and rare tumours. This situation is motivated by organizational shortcomings which have created a historically rooted distrust toward health centers in their home region. This is particularly true for retinoblastoma were the rarity of neoplasm and specific local diagnostic and therapeutic approach makes migration toward another region obligatory. Our data are according to AIRTUM registry where the extra-regional migration of Campania involved 31.1 % of cases in the five-year period 2001–2005 vs 35.5 % of our patients and 25.6 % of cases during the next five years (2006–2010) vs 27.6 % of our observation. Better results (20.3 %) were registered in our region in the last period considered [5, 6]. The evaluation of migration by province of residence describes a progressive reduction over time in the different provinces even if the better results were registered for Napoli and Caserta. Minor results have been registered for Benevento and Avellino, while the lowest rate of reduction was observed in Salerno with a decrease of 9 % at last period respect to the percentage of the first period 1990–1994. In a 2005 Censis study on the reason behind patient migration, two third of respondents declared their primary reason was search for quality, the desire to make use of higher quality hospital facilities and medical personnel [5]. These reasons explain the importance to make a Network Campania of Pediatric Oncology (NETCOP) in order to do more efficacy the collaboration between the regional centers of pediatric oncology (Hub centers) and pediatric hospitals present in the five province of Campania region (Spoke centers). In the next future other problem is the recruitment of immigrant children that underwent a progressive, steady increase over the years, growing from 30 cases (2 % of the total number) in 1999 to 130 cases (8 % of the total number) in 2008 [8–10]. Actually, AIEOP centers in Campania treated 2.4 % of immigrant children [5].

The present findings update descriptive cancer epidemiology in children (0–15 years old) in Campania based on data provided by specialized clinical Mod.1.01 from AIEOP centers and showed an increase over time of O/E ratio, probably due to improvement in the organization of centers and greater trust of families in local centers. Findings derived from this analysis suggest that it is possible to further improve the efficiency of healthcare system of Campania region and migration, problem actually still relevant for the specific cancers that can be reduced with a more rational use of hospitals throughout region.

Acknowledgments

We would like to thank Dr. David Pagnini and Dr. Ciro Ruggiero for supporting the work.

Funding

This study was supported by a non-restricted grant by Sezione AIL “Valentina Picazio”-Caserta. The AIL had no role in the design and conduct of the study; collection, management, analysis, and interpretation of the data; preparation, review, or approval of the manuscript; and decision to submit the manuscript for publication.

Authors’ contributions

PI, SP, participated in study conception and design, performed the final statistical analyses, contributed to the interpretation of data and drafted the paper. SP, FR, FC, participated in study conception and design, contributed to the interpretation of data and critically revised the manuscript for its intellectual content. MDM, EP, DDP, CI, FV, AP, RR critically revised the manuscript for its intellectual content. All authors read and approved the final manuscript.

Competing interests

The authors declare that they have no competing interests.

Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.